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1 | 1 | Revision logs - or *revlogs* - are an append only data structure for |
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2 | 2 | storing discrete entries, or *revisions*. They are the primary storage |
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3 | 3 | mechanism of repository data. |
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4 | 4 | |
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5 | 5 | Revlogs effectively model a directed acyclic graph (DAG). Each node |
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6 | 6 | has edges to 1 or 2 *parent* nodes. Each node contains metadata and |
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7 | 7 | the raw value for that node. |
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8 | 8 | |
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9 | 9 | Revlogs consist of entries which have metadata and revision data. |
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10 | 10 | Metadata includes the hash of the revision's content, sizes, and |
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11 | 11 | links to its *parent* entries. The collective metadata is referred |
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12 | 12 | to as the *index* and the revision data is the *data*. |
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13 | 13 | |
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14 | 14 | Revision data is stored as a series of compressed deltas against previous |
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15 | 15 | revisions. |
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16 | 16 | |
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17 | 17 | Revlogs are written in an append-only fashion. We never need to rewrite |
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18 | 18 | a file to insert nor do we need to remove data. Rolling back in-progress |
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19 | 19 | writes can be performed by truncating files. Read locks can be avoided |
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20 | 20 | using simple techniques. This means that references to other data in |
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21 | 21 | the same revlog *always* refer to a previous entry. |
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22 | 22 | |
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23 | 23 | Revlogs can be modeled as 0-indexed arrays. The first revision is |
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24 | 24 | revision #0 and the second is revision #1. The revision -1 is typically |
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25 | 25 | used to mean *does not exist* or *not defined*. |
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26 | 26 | |
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27 | 27 | File Format |
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28 | 28 | =========== |
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29 | 29 | |
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30 | 30 | A revlog begins with a 32-bit big endian integer holding version info |
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31 | 31 | and feature flags. This integer is shared with the first revision |
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32 | 32 | entry. |
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33 | 33 | |
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34 | 34 | This integer is logically divided into 2 16-bit shorts. The least |
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35 | 35 | significant half of the integer is the format/version short. The other |
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36 | 36 | short holds feature flags that dictate behavior of the revlog. |
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37 | 37 | |
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38 | 38 | Only 1 bit of the format/version short is currently used. Remaining |
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39 | 39 | bits are reserved for future use. |
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40 | 40 | |
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41 | 41 | The following values for the format/version short are defined: |
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42 | 42 | |
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43 | 43 | 0 |
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44 | 44 | The original revlog version. |
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45 | 45 | 1 |
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46 | 46 | RevlogNG (*next generation*). It replaced version 0 when it was |
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47 | 47 | implemented in 2006. |
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48 | 48 | |
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49 | 49 | The feature flags short consists of bit flags. Where 0 is the least |
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50 | 50 | significant bit, the following bit offsets define flags: |
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51 | 51 | |
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52 | 52 | 0 |
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53 | 53 | Store revision data inline. |
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54 | 54 | 1 |
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55 | 55 | Generaldelta encoding. |
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56 | 56 | |
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57 | 57 | 2-15 |
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58 | 58 | Reserved for future use. |
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59 | 59 | |
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60 | 60 | The following header values are common: |
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61 | 61 | |
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62 | 62 | 00 00 00 01 |
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63 | 63 | RevlogNG |
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64 | 64 | 00 01 00 01 |
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65 | 65 | RevlogNG + inline |
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66 | 66 | 00 02 00 01 |
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67 | 67 | RevlogNG + generaldelta |
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68 | 68 | 00 03 00 01 |
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69 | 69 | RevlogNG + inline + generaldelta |
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70 | 70 | |
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71 | 71 | Following the 32-bit header is the remainder of the first index entry. |
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72 | 72 | Following that are remaining *index* data. Inlined revision data is |
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73 | 73 | possibly located between index entries. More on this layout is described |
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74 | 74 | below. |
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75 | 75 | |
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76 | 76 | RevlogNG Format |
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77 | 77 | =============== |
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78 | 78 | |
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79 | 79 | RevlogNG (version 1) begins with an index describing the revisions in |
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80 | 80 | the revlog. If the ``inline`` flag is set, revision data is stored inline, |
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81 | 81 | or between index entries (as opposed to in a separate container). |
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82 | 82 | |
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83 | 83 | Each index entry is 64 bytes. The byte layout of each entry is as |
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84 | 84 | follows, with byte 0 being the first byte (all data stored as big endian): |
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85 | 85 | |
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86 | 86 | 0-3 (4 bytes) (rev 0 only) |
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87 | 87 | Revlog header |
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88 | ||
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88 | 89 | 0-5 (6 bytes) |
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89 | 90 | Absolute offset of revision data from beginning of revlog. |
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91 | ||
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90 | 92 | 6-7 (2 bytes) |
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91 | 93 | Bit flags impacting revision behavior. The following bit offsets define: |
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92 | 94 | 0: REVIDX_ISCENSORED revision has censor metadata, must be verified. |
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93 | 95 | 1: REVIDX_EXTSTORED revision data is stored externally. |
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96 | ||
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94 | 97 | 8-11 (4 bytes) |
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95 | 98 | Compressed length of revision data / chunk as stored in revlog. |
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99 | ||
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96 | 100 | 12-15 (4 bytes) |
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97 | 101 | Uncompressed length of revision data. This is the size of the full |
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98 | 102 | revision data, not the size of the chunk post decompression. |
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103 | ||
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99 | 104 | 16-19 (4 bytes) |
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100 | 105 | Base or previous revision this revision's delta was produced against. |
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101 | 106 | -1 means this revision holds full text (as opposed to a delta). |
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102 | 107 | For generaldelta repos, this is the previous revision in the delta |
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103 | 108 | chain. For non-generaldelta repos, this is the base or first |
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104 | 109 | revision in the delta chain. |
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110 | ||
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105 | 111 | 20-23 (4 bytes) |
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106 | 112 | A revision this revision is *linked* to. This allows a revision in |
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107 | 113 | one revlog to be forever associated with a revision in another |
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108 | 114 | revlog. For example, a file's revlog may point to the changelog |
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109 | 115 | revision that introduced it. |
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116 | ||
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110 | 117 | 24-27 (4 bytes) |
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111 | 118 | Revision of 1st parent. -1 indicates no parent. |
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119 | ||
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112 | 120 | 28-31 (4 bytes) |
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113 | 121 | Revision of 2nd parent. -1 indicates no 2nd parent. |
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122 | ||
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114 | 123 | 32-63 (32 bytes) |
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115 | 124 | Hash of revision's full text. Currently, SHA-1 is used and only |
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116 | 125 | the first 20 bytes of this field are used. The rest of the bytes |
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117 | 126 | are ignored and should be stored as \0. |
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118 | 127 | |
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119 | 128 | If inline revision data is being stored, the compressed revision data |
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120 | 129 | (of length from bytes offset 8-11 from the index entry) immediately |
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121 | 130 | follows the index entry. There is no header on the revision data. There |
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122 | 131 | is no padding between it and the index entries before and after. |
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123 | 132 | |
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124 | 133 | If revision data is not inline, then raw revision data is stored in a |
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125 | 134 | separate byte container. The offsets from bytes 0-5 and the compressed |
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126 | 135 | length from bytes 8-11 define how to access this data. |
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127 | 136 | |
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128 | 137 | The first 4 bytes of the revlog are shared between the revlog header |
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129 | 138 | and the 6 byte absolute offset field from the first revlog entry. |
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130 | 139 | |
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131 | 140 | Delta Chains |
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132 | 141 | ============ |
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133 | 142 | |
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134 | 143 | Revision data is encoded as a chain of *chunks*. Each chain begins with |
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135 | 144 | the compressed original full text for that revision. Each subsequent |
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136 | 145 | *chunk* is a *delta* against the previous revision. We therefore call |
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137 | 146 | these chains of chunks/deltas *delta chains*. |
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138 | 147 | |
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139 | 148 | The full text for a revision is reconstructed by loading the original |
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140 | 149 | full text for the base revision of a *delta chain* and then applying |
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141 | 150 | *deltas* until the target revision is reconstructed. |
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142 | 151 | |
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143 | 152 | *Delta chains* are limited in length so lookup time is bound. They are |
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144 | 153 | limited to ~2x the length of the revision's data. The linear distance |
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145 | 154 | between the base chunk and the final chunk is also limited so the |
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146 | 155 | amount of read I/O to load all chunks in the delta chain is bound. |
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147 | 156 | |
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148 | 157 | Deltas and delta chains are either computed against the previous |
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149 | 158 | revision in the revlog or another revision (almost certainly one of |
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150 | 159 | the parents of the revision). Historically, deltas were computed against |
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151 | 160 | the previous revision. The *generaldelta* revlog feature flag (enabled |
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152 | 161 | by default in Mercurial 3.7) activates the mode where deltas are |
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153 | 162 | computed against an arbitrary revision (almost certainly a parent revision). |
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154 | 163 | |
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155 | 164 | File Storage |
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156 | 165 | ============ |
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157 | 166 | |
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158 | 167 | Revlogs logically consist of an index (metadata of entries) and |
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159 | 168 | revision data. This data may be stored together in a single file or in |
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160 | 169 | separate files. The mechanism used is indicated by the ``inline`` feature |
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161 | 170 | flag on the revlog. |
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162 | 171 | |
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163 | 172 | Mercurial's behavior is to use inline storage until a revlog reaches a |
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164 | 173 | certain size, at which point it will be converted to non-inline. The |
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165 | 174 | reason there is a size limit on inline storage is to establish an upper |
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166 | 175 | bound on how much data must be read to load the index. It would be a waste |
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167 | 176 | to read tens or hundreds of extra megabytes of data just to access the |
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168 | 177 | index data. |
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169 | 178 | |
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170 | 179 | The actual layout of revlog files on disk is governed by the repository's |
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171 | 180 | *store format*. Typically, a ``.i`` file represents the index revlog |
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172 | 181 | (possibly containing inline data) and a ``.d`` file holds the revision data. |
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173 | 182 | |
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174 | 183 | Revision Entries |
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175 | 184 | ================ |
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176 | 185 | |
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177 | 186 | Revision entries consist of an optional 1 byte header followed by an |
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178 | 187 | encoding of the revision data. The headers are as follows: |
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179 | 188 | |
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180 | 189 | \0 (0x00) |
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181 | 190 | Revision data is the entirety of the entry, including this header. |
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182 | 191 | u (0x75) |
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183 | 192 | Raw revision data follows. |
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184 | 193 | x (0x78) |
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185 | 194 | zlib (RFC 1950) data. |
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186 | 195 | |
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187 | 196 | The 0x78 value is actually the first byte of the zlib header (CMF byte). |
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188 | 197 | |
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189 | 198 | Hash Computation |
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190 | 199 | ================ |
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191 | 200 | |
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192 | 201 | The hash of the revision is stored in the index and is used both as a primary |
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193 | 202 | key and for data integrity verification. |
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194 | 203 | |
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195 | 204 | Currently, SHA-1 is the only supported hashing algorithm. To obtain the SHA-1 |
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196 | 205 | hash of a revision: |
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197 | 206 | |
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198 | 207 | 1. Hash the parent nodes |
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199 | 208 | 2. Hash the fulltext of the revision |
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200 | 209 | |
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201 | 210 | The 20 byte node ids of the parents are fed into the hasher in ascending order. |
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